KR100938633B1 - A pot seeding attached an biosoil and a planting method thereof - Google Patents

Abstract

PURPOSE: A pot seedling in which biosoil is attached and a cultivation method thereof are provided to supply nutrient stably and efficiently at an initial period, and to enhance the survival percent of plants cultivated in the pot seeding. CONSTITUTION: A pot seedling(3) includes a plant base material(31) attached on a plant root, and is cultivated in a port(1). The biosoil(5) is attached to around the plant base material. The biosoil includes leaf mould 60-65 weight%, a fertilizer 7-10 weight% including nitric acid, phosphoric acid and KALI, potato starch powder 5-10 weight%, lime 5-6 weight%, zeolite 5-6 weight%, elvan 5-6 weight% and clay 8~10 weight%. The moisture content of the biosoil is 10-30 weight% based on the total amount of the biosoil.

Description

A pot seeding attached an biosoil and a planting method

The present invention relates to a pot seedling and its planting method, and more particularly, a pot seedling, characterized in that the bio-attached around the vegetation base material of the pot seedling cultivated in the pot is attached to the plant roots Pot planting step of cultivating pot seedlings by planting plants in vegetation base material in the pot; Bio-attachment step of separating the pot seedlings cultivation completed in the pot, and attaching the bio to the vegetation base material of the pot seedlings; A pot seedling planting step of planting pot seedlings attached to the biotin on the ground; The bio seed comprising a biotin, nitric acid, phosphoric acid, kali, potato starch powder, lime, zeolite, including ganban Bio-gaga is characterized in that the planting plants can be reliably supplied with nutrients at an early stage to increase the sticking rate, as well as to increase the sticking rate of the pot seedling in the acidified downtown or surrounding ground. The attached pot seedling and its planting method.

The urban environment is being devastated due to increasing urban populations and the environmental problems are increasing. Therefore, in order to improve these environmental problems, environmental improvement plans are being implemented through greening projects in the city center or surrounding cities.

However, the conventional greening business, that is, the landscaping business through the planting of plants has been carried out in a simple manner, such as planting seedlings or planting pot seedlings grown in pots on the ground.

Therefore, this conventional method has a problem that it takes a lot of time to grow and grow the roots on the new ground to which the plant is transferred, as well as increase the rate of non-stuck.

In addition, since the soil in the city center or the ground around the city has been much acidified, if the plant is grown in the forest or planted in the port as it is, the problem of the plant's sticking rate decreases.

The present invention has been made to solve the above problems,

An object of the present invention is to plant the pot seedlings grown in the pot before planting on the ground by attaching bioto capable of supplying nutrients to the outer peripheral surface of the pot seedling, planted on the new ground stably nutrients initially It is to be able to increase supply rate by allowing them to be supplied.

Another object of the present invention is to include a component capable of neutralizing acidified soil in bioto adhered to the outer circumferential surface of the pot seedling, to increase the sticking ratio of the pot seedling in the acidified urban center or the ground around the downtown.

Another object of the present invention is to be able to maximize the adhesion of the applied bioto by incorporating a binder, clay and water in a bioto be applied to the outer peripheral surface of the pot seedling.

Still another object of the present invention is to attach a bioto in a manner of bonding a separately produced biocoat to the outer circumferential surface of the pot seedling, to ensure an appropriate thickness of the biot, as well as to facilitate construction. .

Still another object of the present invention is to have a recessed groove formed at the same site of the pot seedling and the biothickness, so that the pot seedling and the biothickness can be firmly attached without being peeled off.

Bio-attached pot seedling and its planting method for achieving the above object of the present invention includes the following configuration.

Bio seed is attached to the pot seedlings according to an embodiment of the present invention is characterized in that the bio is attached to the vegetation base material around the pot seedlings are planted in the plant roots attached to the plant roots.

According to another embodiment of the present invention, in the bio-attached pot seedling according to the present invention, the bioto is characterized in that it comprises a side leaf, nitric acid, phosphoric acid, kali, binder.

According to another embodiment of the present invention, in the bio-attached pot seedling according to the present invention, the bioto is 60 to 65% by weight of foliar soil; 7-10% by weight of fertilizers including nitric acid, phosphoric acid and kali; Potato starch powder 5-10% by weight; Lime 5-6% by weight; 5-6 wt% zeolite; Gannetite 5-6% by weight; 8 to 10% by weight of clay; characterized in that it comprises water so that the moisture content is 10 to 30% by weight relative to the total weight of bio.

Pot seedling planting method using a bio according to an embodiment of the present invention is a seedling cultivation step of cultivating the pot seedlings by planting the plant seeds in the vegetation base material in the pot; Bio-attachment step of separating the pot seedlings cultivation completed in the pot, and attaching the bio to the vegetation base material of the pot seedlings; It is characterized in that it comprises a; pot seedling planting planting pot seedlings attached to the bio.

According to another embodiment of the present invention, in the pot seedling planting method using biot according to the present invention, the biot used in the bio-adhesion step is characterized in that it comprises a side leaf, nitric acid, phosphoric acid, kali, binder. .

According to another embodiment of the present invention, in the pot seedling planting method using the bio in accordance with the present invention, the bio adhesion step is 60 to 65% by weight of the flounder soil; 7-10% by weight of fertilizers including nitric acid, phosphoric acid and kali; Potato starch powder 5-10% by weight; Lime 5-6% by weight; 5-6 wt% zeolite; Gannetite 5-6% by weight; 8 to 10% by weight of clay; bio-mixing step of producing a bio by blending; After applying the moisture to the water content of 10 ~ 30% by weight based on the total weight of the bioto produced through the bioto-bleaching step, the bio-application step of applying a viscous biotung around the vegetation base material of the pot seedlings It characterized by including.

According to another embodiment of the present invention, in the pot seedling planting method using the bio in accordance with the present invention, the bio adhesion step is to fill the bio-into the bio-epidermal port to produce a non-bio-envelope Auto skin manufacturing step; It characterized in that it comprises a; bio-enveloped bonding step for seating the pot seedling separated in the bio-enveloped produced through the bio-environment manufacturing step.

According to another embodiment of the present invention, in the pot seedling planting method using the bio in accordance with the present invention, the biosheath port for the outer shell of the truncated conical cone diameter; Biot is filled between the envelope and the endothelium, which is contained in the envelope and has the same shape as the envelope, wherein the envelope and the endothelium form a depression embedded in the vertical direction at the same site, and inside the port. It is made of the same shape as the endothelial shape of the biotope port, the port seedling cultivated in the port can be easily seated on the biotope fabric produced in the biotope port, as well as the pot seedling It is characterized by being capable of preventing the auto skin from peeling off.

According to another embodiment of the present invention, in the pot seedling planting method using biot according to the present invention, the bioenvironment manufacturing step is 60 to 65% by weight of the flounder soil; 7-10% by weight of fertilizers including nitric acid, phosphoric acid and kali; Potato starch powder 5-10% by weight; Lime 5-6% by weight; 5-6 wt% zeolite; Gannetite 5-6% by weight; 8 to 10% by weight of peat; by adding water to the water content of 5 to 10% by weight based on the total weight of the bioto produced by mixing, characterized in that it is made by filling the biotto in the biotope sheath port .

The present invention can obtain the following effects by the configuration, combination, and use relationship described above with the present embodiment.

According to the present invention, plants are planted on a new ground to stably receive nutrients by attaching bioto plant which can supply nutrients to plants on the outer circumferential surface of the pot seedlings before planting the pot seedlings grown in the pot. It provides bio seedling pot seedling and its planting method to increase the sticking rate.

According to the present invention, bioto adhered to the outer circumference of the pot seedling, which contains the components that can neutralize the acidified soil, thereby increasing the sticking rate of the pot seedling in the acidified city center or the surrounding ground. And how to plant them.

The present invention provides a bio seedling pot seedling and a planting method thereof, which can maximize the adhesion of the applied biot by incorporating a binder, clay and moisture into the bio seed applied to the outer peripheral surface of the pot seedling. .

The present invention, by attaching the bioto in a manner that combines a separate production of the biotope to the outer peripheral surface of the pot seedling, it is possible to ensure the appropriate thickness of the biotote, as well as to facilitate the construction of the pot seedling with bioto And how to plant them.

The present invention provides a pot seedling and a planting method with a biot to enable the pot seedling and the biotope to be firmly attached to the pot seedling and the biotope without being peeled off by forming an indentation groove in the same portion of the pot seedling and the biotope. do.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the pot seedlings and planting method is attached biotin according to the present invention will be described in detail.

1 is a block diagram showing a sequence of a pot seedling planting method using a bio in accordance with an embodiment of the present invention, Figure 2 is a pot seedling with a biot according to an embodiment of the present invention and its planting method It is a reference diagram showing.

First, the bio seed is attached to the pot seedling according to the present invention in detail, the bio seed is attached to the pot seedling is grown in the pot (1) plant 33 plant roots It is characterized in that the bio (5) is attached around the vegetation base material 31 of the pot seedling (3) to which the (31) is attached.

As shown in FIG. 2, the pot 1 serves as a container for providing a space for the seeded seeds to germinate and grow into pot seedlings after the vegetation base material is filled in the inner space, and to protect the seeded seeds. In general, it may be made of a PVC material or formed in a mesh form.

The pot seedling 3 is a pot-shaped vegetation base material 31 and a plant 33 remaining after the seed germinates in the pot 1 and grows as a plant 33, and then separates the pot 1. 2), as shown in FIG. 2, the pot seedling 3 has a form in which a pot-shaped vegetation base material 31 is attached to the root of the plant 33. The vegetation base material 31 serves to provide nutrients or moisture so that the seeded seeds can germinate effectively, and mixes nutrients and other nitrogen sources with plant fluids such as bark or sawdust as carbohydrates. Organic vegetation base material made by adding pit moss, coco peat, etc. to the compost fermented by the action of the microorganism may be utilized.

The bios (5, biosoil) is a substance that acts as an activator for supplying nutrients to induce stable lubrication of plant roots in the soil and protecting plant roots from acidified surrounding soils, foliar soil, nitric acid, phosphoric acid, Kali, comprising a binder, more preferably from 60 to 65% by weight of foliar soil; 7-10% by weight of fertilizers including nitric acid, phosphoric acid and kali; Potato starch powder 5-10% by weight; Lime 5-6% by weight; 5-6 wt% zeolite; Gannetite 5-6% by weight; Clay 8 to 10% by weight; consists of. The foliar soil refers to soil formed by decay and decomposition of leaves and twigs by microorganisms, and because it is porous, the drainage is good and the moisture and nutrients are strong so that it can supply enough nutrients. By providing sufficient nutrients to plants 33 at the beginning of planting, the roots of plants 33 can be successfully attached to new ground. Fertilizers including nitric acid, phosphoric acid and kali are also required for plant growth in large quantities and provide nutrients that are likely to be lacking in the soil ground, thereby inducing plant 33 roots to successfully stick to new ground. The binder acts as a binder in the bio 5 to allow the various types of components included in the bio 5 to bind well so that the bio 5 can be easily blended. To induce the action, the binder may be used potato starch flour, flour and the like. In addition, the binder can be expected to increase the adhesive force when blending with the moisture to attach the bio (5) around the vegetation base material 31 as described below. Since lime is a basic term for calcium oxide or calcium hydroxide, it acts to neutralize acidified soil, and zeolite is a kind of feldspar mineral. The elvan is mainly composed of silicic anhydride and aluminum oxide, and is effective in mineral elution and far-infrared radiation, especially in plant growth, as well as acidification by adsorption decomposition and ion exchange of heavy metal contaminants using porous materials. Since it is useful to neutralize the soil, the lime, zeolite, and elvan are properly mixed and included in the biot (5) so that the pot seedling (3) is directly contacted with the acidified soil of the new soil where the pot seedling (3) is planted. (3) roots of plants (33) It is possible to prevent the dead before. The clay is added to facilitate the adhesion (coating) of the bio 5, the clay component reacts with moisture, so that the compatibility and viscosity is enhanced, so that the bio 5 is pot seedling as will be described later When applied to the surface of the vegetation base material 31 of (3) to form a bio layer to increase the adhesion of the bio (5). Therefore, the compounding ratio of the above components is mainly composed of foliar soil that can directly supply nutrients to plant roots, reinforcing nitrogen, phosphoric acid, and kali, which are essential for plant growth, and the components, adhesion, and construction to prevent death from acidified soil. It is calculated by considering the components in consideration of convenience, it is a compounding ratio that can maximize the above effects to seek the present invention.

The pot seedling (3) to which the bio (5) attached in such a component and proportion is provided provides sufficient nutrition to the plant roots of the seedling seedlings (3) at the beginning of planting, in addition to inducing efficient lubrication. It is possible to achieve the effect of preventing the death of the plant roots by direct contact with and enhancing the ease of construction in the process of applying the bio 5 and the adhesion of the applied bio (5).

1 to 2, the pot seedling planting method using a bio in accordance with an embodiment of the present invention sowing the seedlings of the plant (33) in the vegetation base material 31 in the pot (1) Pot seedling cultivation step (S1); Bio-attachment step (S3) for separating the pot seedlings (3) after the cultivation is completed in the pot (1), attaching the bioto (5) around the vegetation base material 31 of the pot seedlings (3); It is characterized in that it comprises a; pot seedling planting step (S5) for planting the pot seedling (3) to which the bio 5 is attached to the ground.

The seedling cultivation step (S1) is sowing plants 33 seeds in the vegetation base material 31 in the pot (1) and seed germination in the pot seedlings (3, where the pot seedling pot germinated to grow into plants) After separating the pot, the planting step is a cultivation step of the remaining pot-shaped vegetation base material and means), where the pot (1) is sown after the vegetation base material is filled in the inner space as described above It serves as a container for providing a space until the seed germinates and grows into pot seedlings and protects the seed sown, and may be generally made of PVC material or formed in a mesh form. As described above, the vegetation base material 31 filled in the space inside the pot 1 also serves to provide nutrients or moisture so that the seeded seeds can germinate effectively, and carbohydrates such as bark and sawdust. Organic vegetation base material made by mixing nutrients, other nitrogen sources and the like with this main component and adding pitmos, coco peat, etc. as a moisturizing material to the compost fermented by the action of microorganisms can be utilized. Therefore, the pot seedling step (S1) is first filled with the vegetation base material 31 in the port (1) formed of a PVC material or a mesh form, as shown in (1) of FIG. The seedlings of the plant 33 to be planted in the vegetation base material 31 are sown, and the seedlings 3 are cultivated by providing appropriate moisture until the seeds germinate and grow into the pot seedlings 3. Done.

The bio-adhesion step (S3) is a step of attaching the bio (5) around the vegetation base material 31 of the pot seedling (3) separated from the pot (1), 60 to 65% by weight of foliar soil; 7-10% by weight of fertilizers including nitric acid, phosphoric acid and kali; Potato starch powder 5-10% by weight; Lime 5-6% by weight; 5-6 wt% zeolite; Gannetite 5-6% by weight; 8 to 10% by weight of clay; bio-mixing step of producing a bio (5) by mixing (S31); After adding water so that the moisture content is 10 to 30% by weight based on the total weight of bioto produced through the bioto-mixing step, the viscous bioto (5) is added to the vegetation base material of the pot seedling (3). 31) a bio-application step (S32) to form a bio layer on the outside of the vegetation base material 31 by applying around.

The bio-auto blending step (S31) is a bio-to be used in the present invention, more specifically, the bio-to be applied in the bio-coating step (S32), which will be described below. 60-65% by weight of leafy soil as described; 7-10% by weight of fertilizers including nitric acid, phosphoric acid and kali; Potato starch powder 5-10% by weight; Lime 5-6% by weight; 5-6 wt% zeolite; Gannetite 5-6% by weight; Clay 8 to 10% by weight; consists of. The detailed description of the components and the effects thereof are the same as described above, so the description thereof will be omitted to avoid duplicated materials. The formulation of bio (5) through these ingredients and ratios provides sufficient nutrition to the plant roots of early seedlings (3) to induce efficient sticking, as well as the plant roots by direct contact with acidified soil. It is possible to achieve a function of improving the ease of installation and the adhesion of the applied bio (5) in the process of preventing death and application of the bio (5).

The bio-application step (S32) is a step of applying the bio-oil (5) compounded through the bio-auto compounding step (S31) around the vegetation base material 31 of the pot seedling (3), for this Moisture is applied to the bio 5, in which water is added to the moisture content of 10 to 30% by weight based on the total weight of the bio 5 to facilitate the construction for the application of the bio 5 and to apply the moisture. The adhesion of the bio 5 can be maximized. As shown in (2) of FIG. 2, after separating the pot seedlings 3 which have been cultivated through the pot seeding step S1 as shown in FIG. By applying moisture around the vegetation base material 31 of the pot seedling 3 as described above, the biotite 5 is applied to the vegetation base material 31 so that the bioto 5 is attached to a predetermined thickness around the vegetation base material 31. It will be constructed to form a bio layer.

The pot seedling step (S5) is a step of planting the pot seedling (3) attached to the bioto (5) on the ground (a) through the bio-attachment step (S3), to (4) of FIG. As shown, when the pot seedling 3 to which the bio 5 is attached is planted on the ground a, the root of the plant 33 is primarily the leafy soil, nitric acid, and phosphoric acid included in the bio 5. , Grows by receiving nutrients from fertilizer components including kali, and also by the neutralization of lime, zeolite, and elvan included in the biot (5). By preventing the direct contact of the roots of the plant (33) with the acidic soil of a) to induce the roots to effectively stick without dying at the beginning of planting, and also by using the physical adsorption force of the zeolite and elvan By adsorbing nutrients and providing them to plant roots Transient it is possible to achieve.

Figure 3 is a block diagram showing the order of the pot seedling planting method using a bio according to another embodiment of the present invention, Figure 4 is a pot seedling with a biot according to another embodiment of the present invention and its planting method Figure 5 is a reference diagram, Figure 5 is a reference diagram showing the pot seedlings and planting method of the bio-attached according to another embodiment of the present invention.

3 to 4, the pot seedling planting method using the bio in accordance with another embodiment of the present invention sowing the seedlings of the plant (33) in the vegetation base material 31 in the pot (1) Pot seedling cultivation step (S1); Bio-attachment step (S3) of separating the pot seedling (3) cultivation is completed in the pot (1), attaching the bio (5) around the vegetation base material 31 of the pot seedling (3); A pot seedling planting step (S5) for planting the pot seedlings (3) attached to the bioto (5) on the ground; and, the bio-auto attachment step (S3) is a biotide in the bio-skin sheathing port (7) Filling (5) to produce a biotope made of biotope (5) biotope manufacturing step (S33); It is characterized in that it comprises a; bio-envelope bonding step (S34) for seating the pot seedling (3) separated in the bio-envelope produced through the bio-environment manufacturing step (S33). Among the above steps, the same steps as those of the above-described embodiment will be omitted in order to avoid redundant descriptions, and the following will focus on the steps that differ from the above-described embodiment.

The bioenvironment manufacturing step (S33) is a step of producing a shell made of bio (5) to be attached to the outer surface of the vegetation base material 31 of the pot seedling (3), as shown in FIG. The outer skin port 7 has an inner shell 73 which forms the same inner circumferential surface as the inner circumferential surface of the port 1, and is larger in size than the inner shell 73, and has the same shape. Consisting of the outer shell 71, the biotium 5 is put into the space formed between the outer shell 71 and the inner shell 73 to produce a shell made of the biotto (5). The outer shell made of the bio 5 thus produced has the same shape as the outer surface of the vegetation base material 31 of the pot seedling 3 grown in the pot 1. By inserting the vegetation base material 31 of the pot seedling (3) in the outer shell made of a) it is possible to attach the outer shell made of bio (5) to the outer surface of the vegetation base material (31).

Looking at the method of manufacturing the outer cover made of the bioto (5) using the bio-inner shell (7) in more detail, as described above, the outer shell (71) and the inner shell (73) having only the same size as After positioning the endothelial 73 in the outer shell 71 by using the brace 77 having the same shape as the inner circumferential surface of the endothelial 73 on the inner circumferential surface of the endothelial 73. And when the bio 5 is put into the space between the outer shell 71 and the inner shell 73 to be compacted, it has a certain thickness (thickness as much as the length between the outer shell 71 and the inner shell 73) The outer shell consisting of (5) is produced. In this case, by forming the shell made of the bioto (5) and the recessed grooves (75,35) embedded in the same shape at the same position of the vegetation base material 31 and the shell made of the bioto (5) and the vegetation base material ( 31) it is possible to facilitate the coupling between the as well as to increase the adhesion. To this end, the recessed grooves 75 are formed at the same positions of the outer shell 71 and the inner shell 73 of the bio-skin shell 7 and at the same time on the inner circumferential surface of the port 1 Protrusions 11 capable of forming 35 can be formed.

In addition, the bio (5) used in the bio-environment manufacturing step (S33) is 60 to 65% by weight of foliar soil; 7-10% by weight of fertilizers including nitric acid, phosphoric acid and kali; Potato starch powder 5-10% by weight; Lime 5-6% by weight; 5-6 wt% zeolite; Gannetite 5-6% by weight; 8 to 10% by weight of peat; is added to the moisture content of 5 to 10% by weight based on the total weight of the bio-to be produced by mixing, the peat included in place of the clay included in the previous embodiment is porous Subsequently, the biomass 5 is compacted by compaction of vegetable deposits having high moisture content and high compressibility to induce an easy formation of an outer cover made of bio5. To this end, the amount of water applied to the bio 5 is less than the amount of water applied in the previous embodiment, which is applied to the outer surface of the vegetation base material 31 directly. This is because the bio (5) should be viscous, but in order to form the outer cover consisting of bio (5) is required only the amount of moisture required for each component is compressed and combined.

The bioenvironmental bonding step (S34) is a step of bonding the pot seedling (3) to the biotin envelope produced through the bioenvironmental manufacturing step (S33) to combine, as shown in FIG. 5) the vegetation base material 31 of the pot seedling 3 separated from the pot 1 is removed after removing the endothelial 73 from the non-automatic sheathing port 7 formed therein. Inserted and pressurized into the outer shell made of biot (5), and then removing the outer shell (71), attaching the outer shell made of biot (5) to the outer surface of vegetation base material 31 of the pot seedling (3). The join is complete. In this way, the method of combining the outer shell made of bio 5 to the outer surface of the vegetation base material 31 of the pot seedling 3 is directly connected to the vegetation base material 31 as in the previous embodiment. Rather than applying to the outer surface, the construction can be made easier, and the minimum thickness required to perform the function of the bio 5 can be easily ensured. Can be increased more effectively.

Referring to FIG. 5, the bio seed is attached to the pot seedling according to another embodiment of the present invention and its planting method by using a separate bio-oil sheathing port 7 in the bio-sheathing production step (S33). It is not a method of manufacturing the outer shell made of biot (5), but filling the biot (5) into a mold for manufacturing a generally used rectangular parallelepiped or tile type block. And, the bioenvironment bonding step (S34) is attached to the outer surface of the vegetation base material 31 of the pot seedling (3) before planting the pot seedlings (3) planted as described above Then, the way of planting together on the ground (a) can also be utilized. Such a planting method has the advantage that it is possible to mass-produce the sheath made of bio (5) more easily and its construction can be made easily.

In the above, the applicant has described preferred embodiments of the present invention, these embodiments are only one embodiment for implementing the technical spirit of the present invention, any modifications or modifications to the present invention as long as the technical spirit of the present invention is implemented. It should be interpreted as falling within the scope of.

1 is a block diagram showing the procedure of the pot seedling planting method using bio in accordance with an embodiment of the present invention

FIG. 2 is a reference diagram illustrating a pot seedling attached to a biot and planting method according to an embodiment of the present invention.

Figure 3 is a block diagram showing the procedure of the pot seedling planting method using bio in accordance with another embodiment of the present invention

Figure 4 is a reference diagram showing a bio-attached pot seedlings and planting method according to another embodiment of the present invention

Figure 5 is a reference diagram showing a bio-attached pot seedlings and planting method according to another embodiment of the present invention

* Explanation of the main symbols used in the drawings

1: port 11: protrusion

3: pot grave 31: vegetation base 33: plant 35: recessed groove

5: bio

7: Bioinner Port 71: Inner Shell 73: Inner Shell 75: Indent Home 77: Brace

a: ground

Claims (9)

In the pot seedlings grown in the pot is attached to the vegetation roots, bioto is attached around the vegetation base, The bio is 60-65% by weight of foliar soil; 7-10% by weight of fertilizers including nitric acid, phosphoric acid and kali; Potato starch powder 5-10% by weight; Lime 5-6% by weight; 5-6 wt% zeolite; Gannetite 5-6% by weight; Bio-attached pot seedlings, characterized in that it comprises water so that the water content of 10 to 30% by weight based on the total weight of the bio compounding; delete delete Pot seed cultivation step of cultivating pot seedlings by sowing plant seeds in the vegetation base material in the pot; Bio-attachment step of separating the pot seedlings cultivation completed in the pot, and attaching the bio to the vegetation base material of the pot seedlings; Includes; pot seedling planting step planting pot seedlings attached to the bio; The bio adhesion step 60-65% by weight of foliar soil; 7-10% by weight of fertilizers including nitric acid, phosphoric acid and kali; Potato starch powder 5-10% by weight; Lime 5-6% by weight; 5-6 wt% zeolite; Gannetite 5-6% by weight; 8 to 10% by weight of clay; bio-mixing step of producing a bio by blending; and After applying the moisture to the water content of 10 ~ 30% by weight based on the total weight of the bioto produced through the bioto-bleaching step, the bio-application step of applying a viscous biotung around the vegetation base material of the pot seedlings Pot seedling planting method using a bio, characterized in that it comprises a. delete delete Pot seed cultivation step of cultivating pot seedlings by sowing plant seeds in the vegetation base material in the pot; Bio-attachment step of separating the pot seedlings cultivation completed in the pot, and attaching the bio to the vegetation base material of the pot seedlings; Includes; pot seedling planting step planting pot seedlings attached to the bio; The bio adhesion step A bioenvelopment manufacturing step of manufacturing a bio-enveloped shell by filling the bio-into the bio-enveloped port; and a bio-enveloped shell seated on the pot seedling separated from the bio-enveloped shell produced by the bio-enveloped fabrication step. Including a step; The bioenvironment manufacturing step 60-65% by weight of foliar soil; 7-10% by weight of fertilizers including nitric acid, phosphoric acid and kali; Potato starch powder 5-10% by weight; Lime 5-6% by weight; 5-6 wt% zeolite; Gannetite 5-6% by weight; 8 to 10% by weight of peat; after adding water to the water content of 5 to 10% by weight based on the total weight of bioto produced by mixing the bio-intease for the bio-into the bio-port Pot seedling planting method using bioto. delete delete

Images